Pulmonary Administration: Strengthening the Value of Therapeutic Proximity.

In recent years inhaled systems have shown momentum as patient-personalized therapies emerge. A significant improvement in terms of therapeutic efficacy and/or reduction adverse systemic effects is anticipated from their use owing these systems regional accumulation. Nevertheless, whatever safety and efficacy evidence required for inhaled formulations regulatory approval, it still poses an additional hurdle to gaining market access.

Toxicology and Biodistribution: The Clinical Value of Animal Biodistribution Studies.

Since the human genome decoding, understanding and identification of genetic disturbances behind many diseases, including cancer, are intensively increasing. Scientific and technological advances in this area trigger the search for therapeutic (curative) approaches targeting the correction of gene disturbances. Gene therapy medicinal products (GTMPs) emerge in this context, bringing new challenges for their characterization.

Self-assembly PEGylation assists SLN-paclitaxel delivery inducing cancer cell apoptosis upon internalization.

In past years, a considerable progress has been made in the conversion of conventional chemotherapy into potent and safe nanomedicines. The ultimate goal is to improve the therapeutic window of current chemotherapeutics by reducing systemic toxicities and to deliver higher concentrations of the chemotherapeutic agents to malignant cells. In this work, we report that PEGylation of the nanocarriers increases drug intracellular bioavailability leading therefore to higher therapeutic efficacy.

Implications of Akt2/Twist crosstalk on breast cancer metastatic outcome.

Akt2 is a pivotal player in a complex web of signaling pathways controlling cell growth, proliferation, and survival. The deregulation or aberrations of Akt2 have been associated with tumor progression, metastatic spread, and, lastly, chemoresistance. The impairment of its activity has gained more attention because Akt2 is intertwined with a range of signaling paths, including the Phosphatidylinositol 3 kinase/Akt/Mammalian target of rapamycin (PI3K/mTOR) signaling axis, which are involved in macromolecules synthesis and metabolism.

Experimental design towards an optimal lipid nanosystem: a new opportunity for paclitaxel-based therapeutics.

Lipid based nanoparticles represent a class of nanocarriers that have caused great expectation, particularly due to their suitability to incorporate BCS class II and IV drugs. The use of solid lipid nanoparticles (SLNs) as a nanocarrier for antineoplastic agents has been underexplored when compared to the encapsulation of the same agents in polymeric particles. The preparation and efficacy assessment of a SLN platform as drug delivery carrier for anticancer agents, herein proposed as a strategy to find innovative formulations, could dramatically improve the outcome of cancer therapy.

Lymphatic uptake of pulmonary delivered radiolabelled solid lipid nanoparticles.

Unlabelled: Lymphatic drainage plays an important role in the uptake of particulates in the respiratory system, being also associated to the spreading of lung cancer through metastasis development. In recent years solid lipid nanoparticles (SLN) have been proposed as carriers of anti-tumoural drugs, for their low toxicity and surface characteristics make them suitable for either imaging (gamma-scintigraphy) or therapy upon encapsulation of cytotoxic drugs. Assessment of inhaled radiolabelled SLN biodistribution is described in the present work.